Swivelling lever control that can be padlocked for closing switchboard cabinet doors or the like

ABSTRACT

The disclosure relates to a swivel lever actuator which can be secured by a padlock for the closure of switch cabinet doors or the like, with a dish which is arranged on the outer surface of the door or the like and in which is arranged the lock shaft, wherein an actuating lever is articulated at the free end of the lock shaft as to be swivelable out of the dish about an axis extending transverse to the shaft axis, and with a projection carried by the actuating lever, wherein an eyelet is arranged at the free end of the projection in such a way that when the lever is swiveled into the dish a padlock inserted through the eyelet prevents the actuating lever from swiveling out. The projection is mounted at the actuating lever so as to be displaceable, rotatable and/or swivelable in such a way that it can move relative to a second projection securely fastened to the actuating lever such that the two eyelets are aligned with one another and a padlock can be inserted through the eyelets.

The present application is a U.S. National Stage Application under 35U.S.C. 371 based upon International Application No. PCT/EP98/01239 filedMar. 5, 1998 claiming priority to German Application No. 29711737.8filed Jul. 4, 1997.

BACKGROUND OF THE INVENTION

1. Technical Field

The invention is directed to a swivel lever actuator which can besecured by a padlock for the closure of switch cabinet doors or thelike, with a trough or dish which is arranged on the outer surface ofthe door or the like and in which is arranged the driving device for theclosure, such as a toothed-wheel drive, lever drive or lock shaft,wherein an actuating lever is articulated at the driving device so as tobe swivelable out of the dish about an axis extending parallel to theouter surface of the door or the like, and with a projection mounted onthe swivel lever actuator, wherein an eyelet is arranged at the free endof the projection in such a way that when the lever is swiveled into thedish a padlock inserted through the eyelet prevents the actuating leverfrom swiveling out (locking position).

2. Description of the Related Art

A swivel lever actuator of the type mentioned above which can be securedby a padlock is already known from page 2-105 of a catalog from DIRAKGmbH & Co. KG, Kaiserstr. 55-59, 58332 Schwelm. A disadvantage in thisknown arrangement is that the projection, which is fastened to the dishin this case, lies in the movement path of the user's hand holding theactuating lever after the actuating lever has been swiveled out, so thatthere is a risk that the useres hand could be injured by the projection.

FR 2583093 A1 discloses a lever closure which can be fixed in adetermined position by means of a padlock. The projection used forlocking is also provided in this reference and presents a risk of injuryto the hand of the user.

EP 0 261 267 B1 discloses a rod closure for sheet-metal cabinet doorswhich works with a swivel lever actuator that can be secured in theswiveled in state by means of a cylinder lock. This reference does notprovide for securing by means of a padlock.

WO 91/17334 discloses a swivel lever closure which can be locked bycylinder lock devices and which, similar to the above-mentioned closureaccording to EP 0 261 267 B1, can be mounted in a thin wall, such as asheet-metal cabinet door, and is formed of a base plate having twoprojections which penetrate the door leaf. One projection serves for theconnection of a rod drive or the like or to support a drive shaft or thearticulating shaft for the swivel lever, but also serves at the sametime to fasten one end of the base plate, while the other projection hasa recess for receiving the cylinder lock device which holds the swivellever in its swiveled in position and simultaneously serves to fastenthe other end of the base plate. However, there are no devices foradditionally securing the closure by a padlock.

OBJECT AND SUMMARY OF THE INVENTION

It is the primary object of the invention to further develop thearrangement mentioned above in such away that this risk of injury iseliminated and operation is facilitated.

A further disadvantage in the known arrangement consists in that when nopadlock is inserted the swivel lever is prevented from swiveling outonly when a cylinder lock or key-operated lock is additionally provided,which is not desirable in many cases. When there is no profile cylinder,there is a risk in the known arrangement that as a result of shakingmovement to which the swivel lever closure may be subject, for example,during earthquakes or during operation or transport, the swivel leverwill swivel out to the extent that the projection formed by the padlockwill exit the area of the lever and enable the swivel lever to rotatewith the lock shaft. This rotation results in the risk of unwantedopening of the cabinet door.

Shaking movements of the kind mentioned above occur in particular whenthe arrangement is provided on a crane installation where there areoften a plurality of, e.g., as many as 30, switching installations whichare enclosed by a switch cabinet that is secured by switch cabinetdoors.

Therefore, a further object consists in making possible a constructionin which the actuating lever, in its swiveled in position, is alsoprevented from swiveling out in an unwanted manner when a cylinder lockor the like is not provided and also when no padlock is inserted.

This object is met in that the projection is mounted at the actuatinglever so as to be displaceable and/or rotatable and/or swivelable, inthat the actuating lever has a second projection with an eyelet, and inthat the eyelet of the first projection is situated close to and flushwith the eyelet of the second projection in the locking position of theactuating lever.

As a result of these steps, the formerly troublesome projection swivelsout with the hand lever, so that it no longer interferes with the user'shand when the closure is activated by means of the lever and the handcan no longer be injured. At the same time, it becomes possible to lockthe hand lever in its swiveled in position automatically, wherein thislocking can be canceled again in that the projection is, e.g.,displaced, rotated or swiveled.

According to a further development of the invention, the firstprojection is displaceable parallel to the longitudinal axis of theactuating lever. For example, it can be displaced from a first position,in which its eyelet is aligned with the eyelet of the second,nondisplaceable projection, into a position which is offsetapproximately by the width of an eyelet.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be described more fully hereinafter with reference toembodiment examples shown in the drawings.

FIG. 1 is a side view of a flat rod closure with a swivel lever actuatorwhich is provided with an arrangement according to the invention, shownin the unlocked position;

FIG. 2 shows a top view of the swivel lever actuator of FIG. 1;

FIG. 3 shows a top view of the arrangement according to FIG. 1 with aquarter-turn or sash device shown in dashed lines;

FIG. 4 shows the installation opening in a door for the closureaccording to FIG. 1

FIG. 5 shows a rear view of the swivel lever arrangement according toFIG. 1;

FIG. 6 shows a view of the swivel lever actuator shown in FIG. 1 inconnection with a round rod closure, in the locked position;

FIG. 7 shows a top view of the arrangement according to FIG. 6;

FIG. 8 shows an enlarged view of the projection of FIG. 6 in the lockedposition;

FIG. 9 shows an enlarged view of the projection of FIG. 1 in theunlocked position;

FIG. 10 is a view similar to FIG. 2 showing a more exact view of aswivel lever actuator constructed according to the invention with asecuring device;

FIG. 11 shows a longitudinal sectional view through the arrangementaccording to FIG. 10 in a first position of the two eyelet parts;

FIG. 12 is a view similar to FIG. 11 showing the second position of thetwo eyelet parts;

FIG. 13 shows a rear view of the dish of the arrangement according toFIG. 12;

FIG. 14 shows a view, similar to that in FIG. 10, of another embodimentform of the invention;

FIG. 15 shows an axial sectional view through the embodiment formaccording to FIG. 14;

FIG. 16 shows the arrangement according to FIG. 15 in connection with around rod closure;

FIG. 17 shows an arrangement corresponding to FIG. 15, but in anotherposition of the eyelets and in connection with a flat rod closure;

FIG. 18 shows a view of the dish part of the embodiment form accordingto FIG. 16;

FIG. 19 shows a view, similar to that in FIG. 17, of another embodimentform of the securing device according to the invention in the unlockedposition;

FIG. 20 shows a top view of the arrangement according to FIG. 19;

FIG. 21 shows the embodiment form according to FIG. 19 in the lockedposition;

FIG. 22 shows a rear view of the respective dish;

FIG. 23 shows an enlarged view of the eyelets according to FIG. 19;

FIG. 24 shows an enlarged view of the eyelets according to FIG. 21;

FIG. 25 shows a view, similar to FIG. 19, of another embodiment form ofthe invention in connection with a flat rod closure in the unlockedposition;

FIG. 26 shows the arrangement according to FIG. 25 in connection with around rod closure in the locked position;

FIG. 27 shows a rear view of the respective dish;

FIG. 28 shows an enlarged view of the area emphasized in FIG. 25; and

FIG. 29 shows a variant of the embodiment form according to FIG. 28.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1 is a side view showing a swivel lever actuator 10 for the closure12 of a switch cabinet door 14, a housing wall, sheet-metal case coveror the like, with a dish 18 which is arranged on the outer surface 16 ofthe switch cabinet door 14 or the like and in which is arranged a lockshaft 20 which drives, for example, a sash 22 or, alternatively oradditionally, flat strip rods 24 (FIG. 1) extending along the door leafor, in yet another application, round rods 26 (FIG. 6). In thisconnection, reference is had to the European Patent 0 054 225 as anapplication example.

An actuating lever 28 is articulated at the free end of this lock shaft20 so as to be swivelable out of the dish 18 about an axis 30 extendingtransverse to the axis of the shaft 20. In the swiveled out state, ascan be seen in FIG. 1, the shaft 20 can be rotated with the actuatinglever 28 about its axis 32. In this rotating movement, for example, theexisting sash 22 is swiveled out of the door frame of a switch cabinetand the door is accordingly opened (FIG. 3). Alternatively or inaddition, the flat strip rod 24 in FIG. 1 is moved upward out of itslocking position shown in the Figure, so that the stop wheel 34 isreleased from the edge of a switch cabinet housing 36 and enables thedoor leaf 14 to move away from the housing 36 and accordingly makes itpossible to open the door 14.

On the other hand, in the swiveled in position of the actuating lever 28shown in solid lines in FIG. 1, this actuating lever 28 is enclosed bythe edges of the dish and is accordingly prevented from being rotatedout of its position aligned with the dish. This position is generallythe locking position of the swivel lever closure 12.

If the hand lever is directed vertically downward in this position, itsown gravitational force or friction can suffice to keep it in thisposition. However, during shaking movements such as those which canoccur, for example, in crane installations, there is a risk that thehand lever 28 will move out of its swiveled in position and into theswiveled out position shown in dashed lines in FIG. 1. In this position,rotation can also take place about axis 32 due to further shakingmovement, so that the closure 12 opens in certain cases and thereforeexposes the interior of the switch cabinet in an unwanted manner. It isalso possible that an unauthorized person will swivel out the hand lever28 and move the closure out of its closed position into an open positionby rotating about the axis 32 and will accordingly be able to open thedoor 14 of the switch cabinet 36. However, the hand lever 28 can beprovided with a protrusion 38 at its free end according to the viewshown in FIG. 1, wherein a cylinder lock 40 can be received in thisprotrusion 38. The locking member of the corresponding cylinder can bemounted in such a way that it contacts the rear surface 42 of the doorleaf 14 in the locked state when the hand lever 28 is swiveled in andaccordingly prevents the hand lever 28 from being swiveled out of itsswiveled in position in an unwanted manner. Alternatively, a lockingmember of this kind can also lie behind a contact face formed by ascrewed on casing 44. The disadvantage in this case consists in that itcannot necessarily be seen whether or not the cylinder 40 is locked,i.e., it becomes more difficult to monitor the locking state. Further,cylinder locks have certain disadvantageous characteristics such assensitivity to dust, complicated assembly, high costs and the like.

In order to provide additional or alternative security, a projection 46can be provided which is carried by the swivel lever actuator or, moreprecisely, by its actuating lever 28 (see FIGS. 1, 8 and 9), wherein aneyelet 48 is arranged at the free end of the projection 46. Thisprojection 46 is displaceable at the actuating lever 28 according toFIG. 9 or is displaceable and/or swivelable according to otherembodiment forms to be described hereinafter, namely in such a way thatits eyelet can be moved into the vicinity of and so as to be flush withanother eyelet 50 (or, alternatively, an opening or recess) of a secondprojection 52 which is likewise carried by the swivel lever 28. Thesecond projection 52 can be constructed in such a way, according to FIG.2 or 10, that it engages around the first projection 46 in a U-shapedmanner.

The swivel lever actuator 10 may have a driving device especially forthe flat rod closure 12 shown in FIG. 1 and 3 in the form of atooth-wheel drive 800 seated on lock shaft 20 and meshing with teethwhich may be formed in the flat rods 24. Another possibility is a leverdrive as shown in FIG. 6 to move round rods 26.

The displaceable projection 46 can be displaced from its offsetposition, shown in FIGS. 1 or 9 or 11, in the direction of theprojection 52 against the force of a spring 54 until the two eyeletopenings 48, 50 are aligned with one another (see FIG. 8 of 12). In thisposition, lateral protrusions 56 which are formed by the inner end ofthe displaceable projection 46 contact the rear of protrusions 58 formedby the dish 18. The hand lever is accordingly held in the illustratedposition (FIGS. 8 and 12). A shackle of a padlock 60 (see, for example,FIG. 21) which is inserted through the eyelets 48, 50 holds theprojection 46 in the position shown in FIG. 8. The hand lever 28 isaccordingly also locked in its swiveled in position. When the padlock isremoved, the projection 46 can be moved upward in the direction of thelongitudinal axis of the hand lever, wherein this displacement isassisted by the spring 54. As soon as the protrusion 56 leaves theprotrusion 58 during this displacing movement, the projection 46 isreleased and the swivel lever can be swiveled outward as can be seenfrom FIG. 1. However, if the displacing movement continues, aprotuberance 62 of the inner end of the projection 46 reaches aprotrusion 64 formed by the dish 18, so that the hand lever 28 is againheld in the dish in the end position shown in FIG. 11. This lockingposition can also be achieved in that the hand lever which is initiallyfolded out is pressed into the dish, wherein the projection 46 locatedin the end position shown in FIG. 11 is automatically pressed down bysome distance against the force of the spring 54, specifically in thatthe protuberance 62 has a bevel which contacts a corresponding bevel 66of the protuberance 64 and results in a displacement of the twoprotuberances relative to one another when the hand lever 28 is pressed.The advantage of this function consists in that the hand lever achievesa locked position simply by pressing the hand lever 28 into the dishwithout having to handle a padlock and without the need to lock, as thecase may be, by actuating a key in a cylinder lock 40. By means ofbriefly tapping on the protrusion 46, the latter can be displaceddownward by a short distance against the force of the spring 54 and canaccordingly separate protuberance 62 from protuberance 64, so that thelever can be swiveled out.

However, the swiveled in position held by the protuberances 62, 64 isnot a reliably locking position because any unauthorized person can movethe hand lever out of this swiveled in position. In order to preventthis, the projection 46 can be moved, according to the invention, intothe downward position, already described above, in which the two eyeletopenings 48, 50 are aligned with one another and allow a shackle of apadlock to be inserted. In this position with inserted padlock, the handlever is fixedly and securely locked and this locking state is alsoclearly visible. In addition, it is, of course, also possible to providea cylinder lock which likewise enables locking. This additional lockingcan be key-actuated with a three-cornered, key four-cornered key orother shape of the key tip or can have a slot for screwdrivers. Twodifferent keys would then be needed for unlocking, which is advantageousin certain cases of application.

Since the two eyelets 48, 50 swivel outward with the actuating lever 28,the surface of the released dish 18 does not project out in atroublesome manner, so that the user's hand is not impeded and cannot beinjured.

The embodiment forms shown above are particularly well-suited forinstallation in two identically-sized rectangular openings oriented tothe center of the door as is shown in FIG. 4. For this purpose, the dish18 has protrusions 68, 70 (see FIGS. 11 and 13) which are directedtoward the door leaf 14 and penetrate the latter, wherein, for example,lock casings 44 constructed in a suitably fitting manner can be placedthereon according to FIG. 1 and can be screwed on by fastening screws72, 74, the door leaf being clamped between the dish 18 and uppercasting 44 of closure 12 containing lock shaft 20, and lower casting 44covering cylinder lock 40, as can be seen in FIG. 1. The screws 72, 74penetrate into corresponding bore holes 76, 78 which are formed by thedish 18 which may be made of plastic (see, e.g., FIG. 11).

FIGS. 14 to 18 show a somewhat modified embodiment form. The twoprojections 146, 152 arranged on the hand lever 128 are arranged withtheir eyelets 148, 150 in an aligned position relative to one another insuch a way that the shackle of a padlock is inserted in the direction ofthe axis of the hand lever. The projection 146 can be rotated by 90°about an axis 74 into the position shown in FIG. 16. A protrusion 156which is formed by the inner end 157 and, in the locked positionaccording to FIG. 15, contacts a shoulder 158 formed by the dish 1 18,is then released and makes it possible for the hand lever 128 to beswiveled out of the dish 118. The structural component part 152 may becast integral with the hand lever 128. The structural component part 146is formed of four parts, namely a part containing the bore hole 148 (seealso the top view according to FIG. 14), a diskshaped part supported onthe surface of the hand lever 128 (reference number 176), a bearingcomponent part 178 with a round outer circumference which is rotatablymounted in a corresponding bore hole of the hand lever 128, and afour-cornered protrusion 180 on which an additional structural componentpart 182 is mounted and fastened by a countersink screw 184, namely soas to be rigid against rotation. The structural component part 182 formsthe protrusion 156 which is supported on protrusion 158 and fixes thehand lever 128 in the swiveled in position.

In this case also, the arrangement can be carried out in such a way thatthe rotating movement is effected against spring force, so that, as wasdescribed in FIGS. 1 to 11, a locking of the hand lever is made possiblein the position according to FIG. 16 as well as in the end positionaccording to FIG. 17, while the hand lever 128 can be swiveled outbetween these two positions.

This situation can be seen in FIG. 18, where the corner 164 brings aboutthis automatic locking carried out when sliding in. The annular space175 shown in FIG. 15 could receive a corresponding helical spring.

Another construction possibility is shown in FIGS. 19 to 24. Instead ofa displaceable projection such as that shown, for example, by 46 in FIG.1, there is provided, in this case, a swivelable projection 246 which isfixed to the hand lever 228. The projection 246 is fastened to the handlever 228 so as to be swivelable about an axis 277 against the force ofa spring 254. Similar to the embodiment forms which were describedabove, the projection 246 has two locking positions: one regular lockingposition in which eyelet 248 of projection 246 is aligned with eyelet250 of projection 252 and in which a padlock can be inserted throughthese two eyelets (see also the view in FIG. 21) and a second positionshown in FIG. 19 in which locking also takes place, namely, in thiscase, by means of a protuberance 262, see FIG. 23 which is formed by theprojection 246 and comes to rest against a protuberance 264 of the dish218. This locking position is automatically achieved in that diagonalsurfaces slide along one another when the hand lever 228 is swiveledinto the dish 218 and press this projection 246 in the clockwisedirection against the force of the helical spring 254, whereupon theprotuberances 262, 264 arrive in their locking position after slidingpast one another. In the opposite position in which the two eyelets oropenings 248, 250 are aligned with one another as is shown in FIG. 21,so that a padlock can be inserted through the latter if required, aprotrusion 256 formed by the projection 246 lies behind a protrusion 258formed by the dish 218, so that the hand lever 228 can no longer befolded out of the dish 218 in this position even when a padlock is notinserted.

FIGS. 25 to 29 show a somewhat modified swiveling arrangement. Itdiffers from that shown in FIGS. 19 to 24 in that the swiveling axislocation with the respective spring 377 lies somewhat closer to thesurface of the hand lever 328 and the swivelable projection 346 is givenslightly different application points for locking.

FIGS. 28 and 29 differ only minimally with respect to the projection 345for locking when swiveling in without the use of a padlock.

The embodiment form according to FIGS. 19 to 24 has proven the mostadvantageous; it is more advantageous than the embodiment form accordingto FIGS. 25 to 29 because the projections 246, 252 in this case projectout less than in the embodiment form with the projections 346, 352. Itis more advantageous compared to the embodiment form according to FIGS.1 to 11 because displacement is more complicated to carry out thanswiveling.

It is expressly noted that the eyelet which is fixedly arranged on thelever for locking the lever need not necessarily conform in contour tothe moveable eyelet providing the back-engagement. When using smallpadlocks with thin shackles, an overlapping of the two eyes of theeyelets is sufficient to ensure that the lever is securely held in itsdish.

The swivel lever locking according to the invention can also be used inclosures which are actuated already by swiveling out the actuatinglever, that is, which do not require subsequent turning of the swivellever.

While the foregoing description and drawings represent the presentinvention, it will be obvious to those skilled in the art that variouschanges may be made therein without departing from the true spirit andscope of the present invention.

The invention can be used commercially in switch cabinet construction.

What is claimed is:
 1. A swivel lever actuator which can be secured by apadlock for the closure of switch cabinet doors comprising: a dish whichis adapted to be arranged on an outer surface of the door and in whichis arranged a driving device for the closure; an actuating lever beingarticulated at the driving device so as to be swivelable out of the dishabout an axis extending parallel to the outer surface of the door; afirst projection being mounted on the actuating lever; an eyelet beingarranged at a free end of the f projection so that when the actuatinglever is swiveled into the dish, a padlock inserted through the eyeletprevents the actuating lever from swiveling out; the first projectionbeing mounted at the actuating lever so as to be at least one ofdisplaceable, rotatable and swivelable relative to the lever; theactuating lever having a second projection with an eyelet; and saideyelet of the first projection being situated close to and flush withthe eyelet of the second projection in an end position of the firstprojection in which the actuating lever is prevented from swiveling out.2. The swivel lever actuator according to claim 1, wherein the at leastone of displaceable, rotatable and swivelable projection likewisepreventsthe actuating lever from swiveling out in a second end position.3. The swivel lever actuator according to claim 1, wherein the firstprojection which is fastened to the actuating lever so as to be at leastone of displaceable, rotatable and swivelable extends into an undercutarea of the dish and engages behind this area by a protuberance.
 4. Theswivel lever actuator according to claim 1, wherein the movement of thefir projection is effected against the force of a spring.
 5. The swivellever actuator according to claim 1, wherein the second projection isfixedly mounted on the actuating lever or is formed integral therewith mis U-shaped and receives the first projection between its U-shaped legs.6. The swivel lever actuator according to claim 1, wherein the actuatinglever has, in addition, a cylinder lock whose locking member engages ina locking manner behind a contact surface of the dish.
 7. The swivellever actuator according to claim 1, wherein the dish has twoprotrusions adapted to extend through the door and wherein oneprotrusion forms a lock shaft support; while the other protrusion formsundercuts for locking the movable projection of the actuating lever. 8.The swivel lever actuator according to claim 7, wherein a contactsurface for a cylinder lock that may possibly be provided is formed inthe area of the other protrusion.
 9. The swivel lever actuator accordingto claim 7, wherein the protrusions form bore holes in which fasteningscrews can be screwed for additional parts, such as lock casings orcovers, which can be screwed onto the dish and which clamp a door leafbetween them.
 10. The swivel lever actuator according to claim 1,wherein it is used for actuating one of a flat rod closure, a round rodclosure, or a sash closure.
 11. A swivel lever rod closure for switchcabinet comprising: a swivel lever actuator that can be secured by apadlock; a dish which is adapted to be arranged on an outer surface of adoor and in which is arranged a driving device for the closure; saidactuating lever being articulated at the driving device so as to beswivelable out of the dish about an axis extending parallel to the outersurface of the door; a first projection being mounted on the actuatinglever; an eyelet being arranged at a free end of the first projection sothat when the actuating lever is swiveled into the dish, a padlockinserted through the eyelet prevents the actuating lever from swivelingout; said first projection being mounted at the actuating lever so as tobe at least one of displaceable, rotatable and swivelable relative tothe lever; said actuating lever having a second projection with aneyelet; and said eyelet of the first projection being situated close toand flush with the eyelet of the second projection in an end position ofthe first projection in which the actuating lever is prevented fromswiveling out.
 12. The closure with swivel lever actuator according toclaim 11, wherein the displaceable, rotatable and swivelable projectionlikewise prevents the actuating lever from swiveling out in a second endposition.
 13. The closure with swivel lever actuator according to claim11, wherein the projection which is fastened to the actuating lever soas to be at least one of displaceable, rotatable and swivelable extendsinto an undercut area of the dish and engages behind this area by aprotuberance.
 14. The closure with swivel lever actuator according toclaim 11, wherein the movement of the first projection is effectedagainst the force of a spring.
 15. The closure with swivel leveractuator according to claim 11, wherein the second projection is fixedlymounted on the actuating lever or is formed integral therewith and isU-shaped and receives the first projection between its U-legs.
 16. Theclosure with swivel lever actuator according to claim 11, wherein theactuating lever has, in addition, a cylinder lock whose locking memberengages in a locking manner behind a contact surface of the dish. 17.The closure with swivel lever actuator according to claim 11, whereinthe dish has two protrusions adapted to extend through the door andwherein one protrusion forms a lock shaft support, while the otherprotrusion forms undercuts for locking the moveable projection of theactuating lever.
 18. The closure with swivel lever actuator according toclaim 17, wherein a contact surface for a cylinder lock that maypossibly be provided is formed in the area of the other protrusion. 19.The closure with swivel lever actuator according to claim 17, whereinthe protrusions form bore holes in which fastening screws can be screwedfor additional parts, such as lock casings or covers, which can bescrewed onto the dish and which clamp a door leaf between them.
 20. Theclosure with swivel lever actuator according to claim 11, wherein it isa flat rod closure or a round rod closure, with or without a sashclosure, whose locking rods are guided at the door by means of rodguides and which are displaced in the rod guides in such a way by meansof the driving device coupled with the swivel lever actuator.
 21. Theswivel lever actuator according to claim 1, wherein the driving deviceforte closure is a toothed-wheel drive.
 22. The swivel lever actuatoraccording to claim 1, wherein the driving device for the closure is alever drive.
 23. The swivel lever actuator according to claim 1, whereinthe driving device for the closure is a lock shaft.
 24. The closureaccording to claim 11, wherein the driving device is a toothed-wheeldrive.
 25. The closure according to claim 11, wherein the driving deviceis a lever drive.
 26. The closure according to claim 11, wherein thedriving device is a lock shafts.